- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>

- <string lang="en" key="GOST89_HELP">The GOST block cipher, defined in the standard GOST 28147-89 under name Magma, is a Soviet and Russian government standard symmetric key block cipher.\n\nDeveloped in the 1970s, the standard had been marked "Top Secret" and then downgraded to "Secret" in 1990. It was a Soviet alternative to the United States standard algorithm, DES.</string>

<string lang="en" key="KUZNYECHIK_HELP">Kuznyechik is a block cipher first published in 2015 and defined in the National Standard of the Russian Federation GOST R 34.12-2015 and also in RFC 7801. 256-bit key, 128-bit block. Mode of operation is XTS.</string>

<string lang="en" key="CAMELLIA_HELP">Jointly developed by Mitsubishi Electric and NTT of Japan. First published on 2000. 256-bit key, 128-bit block. Mode of operation is XTS. It has been approved for use by the ISO/IEC, the European Union's NESSIE project and the Japanese CRYPTREC project.</string>